Niels Henrik Abel, (born August 5, 1802, island of Finnøy, near Stavanger, Norway—died April 6, 1829, Froland) Norwegian mathematician, a pioneer in the development of several branches of modern mathematics.

Niels Henrik Abel, painting by Johan Gorbitz, 1826.

Mathematics Institute, University of Oslo/The Abel Prize/The Norwegian Academy of Science and Letters

Abel’s father was a poor Lutheran minister who moved his family to the parish of Gjerstad, near the town of Risør in southeast Norway, soon after Niels Henrik was born. In 1815 Niels entered the cathedral school in Oslo, where his mathematical talent was recognized in 1817 with the arrival of a new mathematics teacher, Bernt Michael Holmboe, who introduced him to the classics in mathematical literature and proposed original problems for him to solve. Abel studied the mathematical works of the 17th-century Englishman Sir Isaac Newton, the 18th-century German Leonhard Euler, and his contemporaries the Frenchman Joseph-Louis Lagrange and the German Carl Friedrich Gauss in preparation for his own research.

Abel’s father died in 1820, leaving the family in straitened circumstances, but Holmboe contributed and raised funds that enabled Abel to enter the University of Christiania (Oslo) in 1821. Abel obtained a preliminary degree from the university in 1822 and continued his studies independently with further subsidies obtained by Holmboe.

Niels Henrik Abel, lithograph after a drawing by Johan Gorbitz, 1826

Courtesy of the Royal Norwegian Embassy, Washington, D.C.

Abel’s first papers, published in 1823, were on functional equations and integrals; he was the first person to formulate and solve an integral equation. His friends urged the Norwegian government to grant him a fellowship for study in Germany and France. In 1824, while waiting for a royal decree to be issued, he published at his own expense his proof of the impossibility of solving algebraically the general equation of the fifth degree, which he hoped would bring him recognition. He sent the pamphlet to Gauss, who dismissed it, failing to recognize that the famous problem had indeed been settled.

Abel spent the winter of 1825–26 with Norwegian friends in Berlin, where he met August Leopold Crelle, civil engineer and self-taught enthusiast of mathematics, who became his close friend and mentor. With Abel’s warm encouragement, Crelle founded the Journal für die reine und angewandte Mathematik (“Journal for Pure and Applied Mathematics”), commonly known as Crelle’s Journal. The first volume (1826) contains papers by Abel, including a more elaborate version of his work on the quintic equation. Other papers dealt with equation theory, calculus, and theoretical mechanics. Later volumes presented Abel’s theory of elliptic functions, which are complex functions (seecomplex number) that generalize the usual trigonometric functions.

In 1826 Abel went to Paris, then the world centre for mathematics, where he called on the foremost mathematicians and completed a major paper on the theory of integrals of algebraic functions. His central result, known as Abel’s theorem, is the basis for the later theory of Abelian integrals and Abelian functions, a generalization of elliptic function theory to functions of several variables. However, Abel’s visit to Paris was unsuccessful in securing him an appointment, and the memoir he submitted to the French Academy of Sciences was lost.

Abel returned to Norway heavily in debt and suffering from tuberculosis. He subsisted by tutoring, supplemented by a small grant from the University of Christiania and, beginning in 1828, by a temporary teaching position. His poverty and ill health did not decrease his production; he wrote a great number of papers during this period, principally on equation theory and elliptic functions. Among them are the theory of polynomial equations with Abelian groups. He rapidly developed the theory of elliptic functions in competition with the German Carl Gustav Jacobi. By this time Abel’s fame had spread to all mathematical centres, and strong efforts were made to secure a suitable position for him by a group from the French Academy, who addressed King Bernadotte of Norway-Sweden; Crelle also worked to secure a professorship for him in Berlin.

In the fall of 1828 Abel became seriously ill, and his condition deteriorated on a sled trip at Christmastime to visit his fiancée at Froland, where he died. The French Academy published his memoir in 1841.

In 1824 the Norwegian mathematician Niels Henrik Abel provided the first valid proof of the impossibility of obtaining radical solutions for general equations beyond the fourth degree. However, this did not end polynomial research; rather, it opened an entirely new field of research since, as Gauss’s example showed, some equations were indeed solvable. In 1828 Abel suggested two main points for...

One recent tendency in the development of mathematics has been the gradual process of abstraction. The Norwegian mathematician Niels Henrik Abel (1802–29) proved that equations of the fifth degree cannot, in general, be solved by radicals. The French mathematician Évariste Galois (1811–32), motivated in part by Abel’s work, introduced certain groups of permutations to...

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(1802-29). The Norwegian mathematician Niels Henrik Abel made a remarkable series of contributions that were not fully recognized during his lifetime. He is known for his work with integral equations-mathematical expressions that are used to compute the area beneath a curve. Integral equations have broad practical application in surveying and engineering. Abel also investigated the field of elliptic functions. (An ellipse is an oval with special properties.)